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Materials and Methods

Abstract.

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Materials and Methods

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  1. Abstract This project studies temperatures of typical urban surfaces to understand urban heat island mitigation. Contrasting environmental conditions include white versus black roofs, natural versus artificial turf, shaded versus non-shaded areas, and bare versus ivied walls. East Harlem is also studied. Infrared thermosensors measure surface and air temperatures there. Analysis shows that high albedos and evapo-transpiration can cause cooling. Urban heat island mitigation strategies that use these factors, such as vegetated and reflective surfaces, may be more effective. Preliminary evidence suggests that urban vegetation is significantly more effective than high-albedo surfaces. Discussion & Conclusion The Bronx data suggests two cooling factors: high albedo and evapo-transpiration. The white roof, having a higher albedo than the black roof, is cooler; the real grass field, having the ability to transpire, is cooler than the artificial turf field. Transpiration also seems to be stronger than an increase in albedo; the grass field was the coolest surface of the four. This suggests that while reflective surfaces are cooled, vegetation is even cooler. The Morningside Drive data confirms the intuition that it is cooler in the shade. Being under the tree cooled both air and sidewalk, and in sunlight shade temperatures more slowly than non-shaded temperatures. This is due more likely to shading than to evapo-transpiration. Bronx-Turf Field Overhead view of Bronx field. Four different surfaces in close proximity allowed simultaneous measurements. Materials and Methods Temperature readings were taken with Thermoworks Pro sensors mounted on tripods with umbrella-shaded air probes. Two simultaneous readings were taken in contrasting areas. These included grass, artificial turf, white roofs, and black roofs in the Bronx, and sidewalks in East Harlem. Later subjects were tree-shaded versus non-shaded areas by Morningside Park, and bare versus ivy-covered walls by Riverside Park. NASA Landsat Thermal image of Manhattan and surrounding areas Thermoworks IR Pro Thermosensor Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS) NASA New York City Research Initiative (NYCRI) Contributors: Dr.Stuart Gaffin, Ph. D., Cynthia Rosenzweig, Ph.D. Lisa Meirowitch, High School Teacher Harrison Hsu, Undergraduate Lawrence Brazin, High School Student NYC’s Urban Heat Island—Characterizing Sources of Heat from Typical Urban Surfaces Lawrence Brazin, Harrison Hsu, Lisa Meirowitch, Dr. Stuart Gaffin. Adjacent Grass Field

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